Project description:Haploid cells are amenable for genetic analysis because they contain only one set of chromosomes. Here,we report the derivation of haESCs from monkey parthenogenic blastocysts. These cells, which we designated PG-haESCs (parthenogenic haploid embryonic stem cells), express classical ESC markers, are pluripotent, and can differentiate to different cell lines from all three embryonic germ layers in vivo and in vitro. We used microarrays to compare the gene expression levels among PG-haESC, ICSI-derived ESCs and female monkey somatic fibroblasts. We used ICSI-derived ESCs and somatic fibroblasts isloated from female individuals as control. Gene expression profiles of all the cell lines were analysed on an Affymetrix Rhesus Macaque array.
Project description:Haploid cells are amenable for genetic analysis because they contain only one set of chromosomes. Here,we report the derivation of haESCs from monkey parthenogenic blastocysts. These cells, which we designated PG-haESCs (parthenogenic haploid embryonic stem cells), express classical ESC markers, are pluripotent, and can differentiate to different cell lines from all three embryonic germ layers in vivo and in vitro. We used microarrays to compare the gene expression levels among PG-haESC, ICSI-derived ESCs and female monkey somatic fibroblasts.
Project description:The genomic DNA sample of monkey PG-haESCs were compared to the female adipose cells by comparative genomic hybridization. The data confirmed that these haploid cells sustained genome integrity. The analysis was performed on a Agilent aCGH G3 Rhesus Macaque 4x180K array to analyse the copy number variations in monkey PG-haESCs, and the genomic DNA of femal monkey adipose was used as control, which had the same background with haploid ESCs.
Project description:The genomic DNA sample of monkey PG-haESCs were compared to the female adipose cells by comparative genomic hybridization. The data confirmed that these haploid cells sustained genome integrity.
Project description:With improved whole-cell isolation protocols, we performed single-cell RNA sequencing (scRNA-seq) and profiled the transcriptomes from adult non-human primate brain. We identified discriminative cell populations with canonical and novel markers. Cross-species projection demonstrated the evolutionary conservation among mouse, monkey, and human. This dataset serves as a detailed transcriptomic atlas for understanding the adult primate central nervous system.
